Established in 2012 by two innovative business people Eren Özmen and Fatih Özmen, as an affiliated company of US-based Sierra Nevada Corporation (SNC), ESEN operates in the fields of aviation, spac...
ESEN commits to translating customer requirements into quality, cost-effective products and services through defined processes and providing customer satisfaction. In order to achieve this goal, ES...
ESEN Land-based Wide Area Surveillance System (LWAS), which is a wide-area motion imagery (WAMI) solution, provides persistent overall surveillance from fixed ground platforms.
ESEN Mini Wide Area Surveillance System (MWAS), which is a wide-area motion imagery (WAMI) solution, provides persistent surveillance from aerial platforms such as Class I to Class II unmanned aerial vehicles and tethered drones. MWAS system is designed with consideration of optimizing size, weight, and power requirements.
ESEN Airborne Wide Area Surveillance System (AWAS), which is a wide-area motion imagery (WAMI) solution, provides persistent surveillance from aerial platforms. AWAS system is designed to be integrated into manned surveillance aircraft and unmanned aerial vehicles (UAVs) in Class III (MALE/HALE).
ESEN Aerostat Wide Area Surveillance System (AeroWAS), which is a wide-area motion imagery (WAMI) solution, provides persistent surveillance from aerostat platforms.
GöKHUN is the ideal UAS solution for tactical multi-mission land and ship-based operations, providing the optimum payload & endurance capacity in its class.
ESEN Mini UAS is a man-portable UAS for tactical intelligence, surveillance, and reconnaissance operations.
GöRDES Vision-Based Navigation Product provides accurate and real-time position, velocity and attitude information for aerial vehicles under GNSS denied conditions via onboard imaging and image processing.
HFDF is the tactical High-Frequency Direction Finding and Monitoring System. It provides Electronic Support Measures (ESM) for communication systems in HF Band.
Airborne COMINT system covering HF, VHF, UHF frequency bands.
ESEN TACOS System combines ‘Traffic Collision Avoidance System’ (TCAS II) and Terrain Awareness and Warning System (TAWS) in a modular open architecture.
PORTIA Big Data Fusion and Analysis System enables data fusion and analysis on structured databases and unstructured open source data.
WISE23 Mission Management System provides the user with much more comprehensive and meaningful mission management support than traditional systems thanks to its artificial intelligence support and multi-sensor fusion capability.
ESEN provides modernization, updating, function enhancement, special mission conversion, system integration, and airworthiness certification consultancy services to military and civil aircraft, independently from original equipment manufacturers (OEMs), in accordance with EASA/FAA standards.
With the purpose of developing innovative avionics systems, pioneer solutions are developed for aerospace applications. Traffic and Terrain Collision Avoidance System (TACOS), Wide-Area Surveillance System (WAS) and Terrain following navigation systems co
On the field of Electronic Warfare (EW)/Signal Intelligence (SIGINT); activities are carried out on system/sub-system engineering/design and integration of these systems to land and air platforms.
With its proven avionics products, expertise and AS-9100D & CMMI Level 3 processes, ESEN provides design and engineering services for avionics software and hardware developement projects.
ESEN has experience regarding systems and subsystems that will operate in space, starting from determination of requirements, conducting feasibility, defining operational concept and system level design. The following could be provided in this area:
Big Data is processed and statistical analyzes are presented for structured databases and unstructured open source data.
Systems Safety, Reliability, Maintainability, Testability (SRMT) Engineer will be work in avionics development projects as a member of the development team. SRMT Engineer will be responsible for planning and performing SRMT activities including SRMT analy
General Qualifications and Job Description
Qualifications
Bachelor’s Degree in Electrical Engineering or Aerospace Engineering,
Minimum 5 years of experience in an Avionics or Aerospace Engineering role,
Ability to read and understand electrical schematics,
Possess a basic understanding of accepted civil and military aviation safety methodologies,
Experience in avionics systems safety analysis, such as the generation of Fault Trees, Functional Hazard Assessments, Preliminary System Safety Analyses and System Safety Assessments,
Extensive experience in reliability analysis, testing, statistical analysis, and modeling,
Understanding and use of Microsoft Office applications and SRMT tools such as PTC Windchill Quality Solutions (Relex), Reliasoft, etc.
Willingness to learn & be trained on new methods and technologies,
Strong oral and written communication skills in English
Responsibilities
Responsibilities
SRMT Engineer will,
Perform System Safety Assessment, Fault Tree Analysis, Common Mode Analysis, Functional Failure Path Analysis, Safety Requirements development, Developing Safety Program Plans, Functional Hazard Analysis, Failure Modes Effects and Criticality Analysis, and Reliability Predictions,
Perform reliability prediction analysis using generally accepted methodology and failure rate sources such as MIL-HDBK-217, Prism or field experience data and the use of Weibull Distribution & Analysis,
Coordinate component failure analysis for root cause and drive corrective actions
Perform Failure Mode, Effects and Criticality Analysis to support the design process and to provide input to Safety and Testability analyses,
Document technical data generated by the assigned project consistent with engineering policies and procedures,
Comprehensive understanding of Military Standard Components, Specifications and Environments,
Provide technical guidance and assistance to design/development engineers, regarding the selection of components that best fit their design requirements and to ensure that all purchased parts on the BOM are designed and manufactured in compliance to the applicable regulations and directives.